Field of the Invention
[0001] The present invention relates to a method and system for dynamic reconfiguring an
audio reproduction system comprising two or more sound channels. The premises of the
reconfiguring are being based on the position of one or more listeners and the one
or more sound channels in the reproduction system. The feature obtained is a sound
distribution into individual zones of sound fields.
[0002] The invention includes digital signal processing, sound transducers, filters and
amplifier configurations to be applied in surround sound systems and traditional stereophonic
system, and to be applied in any domain like a home, in a vehicle, in a boat, in an
airplane, in an office or in any other private or public domain, this being airports,
shopping centres, sports arenas and theatres, i.e. in a PA system.
Background of the Invention
[0003] It is a well known problem in prior art loudspeaker systems operating in closed rooms/spaces
e.g. a car, that the sound expired by the user may vary according to the listeners
position in a space relative to the loudspeaker system transducers.
[0004] Furthermore systems have been developed for simplistic sound distribution, for example
for use inside rooms or cars. The systems detect the configuration of the space and
the presence of listeners, and reconfigure the sound output according to the number
of listeners and their position relative to the loudspeakers. Such systems are disclosed
in
US2007/0211908,
US2004/0240676 and
DE102004022379.
Object of the Invention
[0005] Thus to obtain a certain perceived quality level of a loudspeaker system, e.g. in
a car, the individual sound channels incorporating one or more loudspeaker modules
must be calibrated and adjusted individually and according to the number of persons
in the car, and their position in the space e.g. their seated positions.
[0006] This principle may be applied in any type of room like airplanes, boats, theatres,
arenas, and shopping centres and alike.
[0007] In the public domain applications it would be a huge advantage to direct the sound
fields primarily into zones where people are located and /or seated, this to avoid
acoustical reflections from distributed speakers in areas where no people are located.
Description of the Invention
[0008] The invention discloses a surround sound system where different sound settings may
be enabled via digital signal processing means controlling the individual sound channels
parameters e.g. the equalization (filters), the delay, the gain (amplification). The
premise for the control is based upon the listener's position in the listening room/space.
[0009] In a more advanced embodiment of the invention the control and sound setting may
work in a contextual mode of operation to accommodate for:
- the position of the one or more listeners;
- a functional mode of operation, e.g. adjust the sound system settings to be in movie
mode;
- the type of music, e.g. rock;
- the time of the day; e.g. morning/day/night/Christmas etc.
[0010] The invention discloses a solution that in an automatically mode of operation may
fulfil the stated requirements and solve the related technical problems.
[0011] In summary the invention includes:
- sensor means to detect a listener position;
- a mode of operation related to a user position or a required function;
- Information available according to context (place, time and music content);
- multi channel sound system, e.g. two channels stereo, a 5.1 surround sound system;
- digital controlled sound system e,g. digital control of gain, equalization and delay;
- active speakers including amplifiers and filters for each loudspeaker transducer.
[0012] The digital control of the sound system is based on standard means for:
- gain: adjust the signal by a certain level, i.e. + /- xx dB, e.g. +0.1 dB;
- delay: the signal is delayed by a specific time, i.e. yy ms, e.g. 100 ms;
- EQ: the signal is filtered according to the Finite Impulse Response principle (FIR)
or the signal is filtered according to the Infinite Impulse Response principle (iiR);
a number of coefficients are specified; the number of parameters typically to be from
1 -> 1000.
[0013] The invention may be implemented in different embodiments, in which the alternative
reconfiguring procedures may be implemented as:
- a traditional algorithm in terms of a sequential software program in which the values
of the resulting adjustment parameters are embedded in the code itself; the algorithm
validates according to a specified system structure of an actual loudspeaker configuration;
- a table based concept in which one or more tables defines the attributes to be applied
per loudspeaker channel versus the mode of operation, the listener position and other
context related information (e.g. time).
[0014] In a first aspect of the invention a method for automatic reconfiguring an audio
reproduction system comprising two or more sound channels where the reconfiguring
has the steps:
- determine the physical position of one or more listeners,
- apply the physical position as information to select a set of predefined or calculated
(in situ) sound parameters, the set of parameters to include settings for equalization,
gain and delay per sound channel,
- optionally apply other context related information to select a set of predefined sound
parameters,
- optionally apply other user commanded information to select a set of predefined sound
parameters, and
- provide the set of parameters per sound channel accordingly.
[0015] The fundamental goal of the invention is to enhance the perceived sound quality seen
from a listener prospective. Regardless of the physical position of the loudspeakers,
a virtual sound field may be generated and directed so it appears to be anywhere the
listener may desire. This is obtained by adjusting the gain, the delay and the equalization
parameters of the individual sound channels in a multichannel sound system.
[0016] In another aspect the reconfiguring process validates the position of the one or
more users, and/or functional premises and/or context related premises and or content
related premises as part of the reconfiguring of the one or more sound channels that
constitutes the configured loudspeaker system, and where the validation prioritizes
the position of one or more listeners.
[0017] According to specific requirements of a sound providing system miscellaneous features
may be offered and controlled automatically and/or commanded by the user. The features
may be used individually and/or mixed in a way that accommodates the user's demands.
A predefined combination of sound settings per channel and the functional options
supports the processing. Examples of functional options are:
- seat priority: driver, all, back, front, centre, left, right etc.;
- a persons physical position: in a room, in a car, in a PA domain etc.;
- zone priority: a zone includes one or more specific sound channels;
- mode priority: movie, music, speech;
- channel mode: stereo, surround sound 5.1, or other multi channel system of any order;
- group of people: one or more listeners in a zone;
- the time of an event.
[0018] The reconfiguring process is provided as one or more algorithms to provide the calculation
of each of the values of the sound channel adjustment variables.
[0019] In a preferred embodiment the reconfiguring process is provided as a table with relations
provided to be accessed by the digital signal processor to provide each of the values
of the sound channel adjustment with variables.
The saved attributes and key parameters are loaded into the reconfiguring means supported
by electronic means, means that is connected wirelessly or connected by wire to the
audio reproduction system.
[0020] In a third aspect of the invention the reconfiguring process provides the settings
of the sound parameters; gain, equalization and delay for one sound channel, to be
applied in one sound field zone related to the physical position of first group of
people including one or more listeners.
To accommodate for the handling of more zones including different groups of people
the reconfiguring process provides the settings of the sound parameters; gain, equalization
and delay for one sound channel, to be applied in one sound field zone related to
the physical position of one or more other groups of people including one or more
listeners.
[0021] In yet another aspect a listener position is detected via standard sensor means like
switches or infrared detectors or strain gauges or temperature sensitive detectors.
[0022] The configuring process is to be automatically executed and/or controlled by the
audio amplifier means, including a digital signal processor, which drives the loudspeaker
system. The reconfiguring means is embedded into an audio reproduction system.
[0023] In a preferred embodiment, the reconfiguring is controlled via a table mapping the
mode of operation to adjustment parameters for each speaker in every channel or just
relevant channels. The adjustment parameters are e.g. but not limited to: equalization,
delay and gain.
[0024] The table may be represented as one or more data set as most appropriate to the digital
controller unit.
E.g. one data set may contain the relations among:
- listener position,
- loud speaker channel #,
- parameter settings (EQ, delay, and gain).
[0025] Another data set may contain the functional/mode related information like:
- functional settings (movie, audio only),
- loud speaker channel #,
- parameter settings (EQ, delay, and gain).
[0026] This table concept is considered to be a data driven control systems, and enables
for easy updates of the functional behaviour of a specific system simply by loading
alternative data set into the controller.
[0027] In addition, the invention includes a constraint Solver, which comprises a table
with digital data representing the constraints of the passenger(s) position(s) and
related acoustical adjustment, attributes and corresponding variable values.
The constraint solver processing enables an arbitrary access mode to information with
no order of sequences required. This is an important advantage over prior art tree-like
programming structure, where the starting point is given by the root of the tree.
Especially, when finding ways from nodes within the tree-like program to a specific
target location in the tree, it may be obscure with regard to which way to chose,
whether backwards or forwards, and the final solution may be a new start from the
root.
[0028] According to the invention, the product configuration domain table is organized as
relations among variables in the general mathematical notation of 'Disjunctive Form':
AttribVariable 1.1 and AttribVariable 1.2 and AttribVariable 1.3 and Attrib Variable
1.n
Or AttribVariable 2.1 and AttribVariable 2.2 and AttribVariable 2.3 and Attrib-Variable
2.n
Or ....
Or ....
Or AttribVariable m.1 and AttribVariable m.2 and AttribVariable m.3 and AttribVariable
m.n
[0029] For example, AttribVariable 1.1 may be defining a passenger seat position, AttribVariable
1.1 a speaker transducer unit, AttribVariable 1.3 a speaker system/subsystem and AttribVariable
1.n gain value for the transducer unit. In another example, AttribVariable 2.n may
be a reference to another table.
[0030] An alternatively definition term is the 'Conjunctive Form':
AttribVariable 1.1 or AttribVariable 1.2 or AttribVariable 1.3 or AttribVariable 1.n
And AttribVariable 2.1 or AttribVariable 2.2 or AttribVariable 2.3 or AttribVariable
2.n
And ....
And ....
And AttribVariable m.1 or AttribVariable m.2 or AttribVariable m.3 or AttribVariable
m.n
[0031] With this method of defining the problem domain, it becomes a multi-dimensional state
space enabling equal and direct access to any point in the defined set of solutions.
The term multidimensional has to be understood as a contrast to a tree-like programming
structure, which is two-dimensional.
[0032] According to the invention, the product configuration function proceeds by finding
the result of the interrogation in the set of allowed and possible combinations in
one or more Configuration Constraint Tables. According to definitions made in the
configuration constraint tables, the result might be:
- a list of variables useful in the application e.g. gain, and filter setting i.e. equalization,
for the one or more transducers;
- a list of variables useful in the application e.g. delay for the one or more transducers;
- a list of variables useful in the application to configure individual sound domains
to related to zone of sound of targeted to one or more users.
[0033] Alternative configurations may be evaluated by the constraint solver, the alternatives
being one or more of the defined set of legal combination in the constraint table.
The example illustrates alternative solutions for x, y when y is given:
[0034] The: If x Then y may be represented as x -> y
[0035] With the truth table:
x |
y |
x->y |
0 |
0 |
1 |
0 |
1 |
1 |
1 |
0 |
0 |
1 |
1 |
1 |
- Given the premise
- x is '1' the conclusion y is '1'.
- Given the conclusion
- y is '1' the premises for x may be '1' or '0'.
Thus, when y is '1' the alternative for x are '1' or '0'.
[0036] Represented in a constraint table the x -> y has the legal combinations of x, y:
[0037] Table entries in a constraint table may be combined into legal/illegal combination
such that all the well known logical operators known from the Boolean algebra will
be included as required. The logical operators being: AND, OR, NOT, XOR, Logical Implication
(->), Logical Bi-implication (=).
[0038] An example of a table definition is displayed below:
Mode or position |
Speaker channel # |
Other (e.g. time, content) |
Equalization EQ |
Delay |
Gain |
Driver |
1 |
|
p-val-d1 |
q-val-d1 |
r-val-d1 |
|
2 |
|
p-val-d2 |
q-val-d2 |
r-val-d2 |
|
..... |
|
..... |
..... |
..... |
|
n |
|
p-val-dn |
q-val-dn |
r-val-dn |
|
|
|
|
|
|
Front |
1 |
|
p-val-f1 |
q-val-f1 |
r-val-f1 |
|
2 |
|
p-val-f2 |
q-val-f2 |
r-val-f2 |
|
..... |
|
..... |
..... |
..... |
|
n |
|
p-val-fn |
q-val-fn |
r-val-fn |
|
|
|
|
|
|
Rear |
1 |
|
p-val-r1 |
q-val-r1 |
r-val-r1 |
|
2 |
|
p-val-r2 |
q-val-r2 |
r-val-r2 |
|
..... |
|
..... |
..... |
..... |
|
n |
|
p-val-rn |
q-val-rn |
r-val-rn |
|
|
|
|
|
|
All |
1 |
|
p-val-a1 |
q-val-a1 |
r-val-a1 |
|
2 |
|
p-val-a2 |
q-val-a2 |
r-val-a2 |
|
.... |
|
..... |
..... |
..... |
|
n |
|
p-val-an |
q-val-an |
r-val-an |
|
|
|
|
|
|
Movie |
1 |
|
p-val-m1 |
q-val-m1 |
r-val-m1 |
|
2 |
|
p-val-m2 |
q-val-m2 |
r-val-m2 |
|
..... |
|
..... |
..... |
..... |
|
n |
|
p-val-mn |
q-val-mn |
r-val-mn |
..... |
..... |
|
|
|
|
Other |
1 |
|
p-val-o1 |
q-val-o1 |
r-val-o1 |
|
2 |
|
p-val-o2 |
q-val-o2 |
r-val-o2 |
|
..... |
|
..... |
..... |
..... |
|
n |
|
p-val-on |
q-val-on |
r-val-on |
[0039] Thus in an aspect of the invention the reconfiguring means is embedded into an audio
reproduction system. Thus the system becomes the controller of the re- configuring
process that provides a reconfiguration of the system itself.
Description of the Drawing
[0040] In the following, preferred embodiments of the invention will be described with reference
to the drawings wherein:
Figure 1 displays components that constitute examples of loudspeaker module configurations,
that represent one sound channel configuration;
Figure 2 displays an example of an embodiment of the invention displaying a plurality
of sound channels;
[0041] Figure 1 display components that constitute examples of loudspeaker module configurations
related to one sound channel.
A loudspeaker transducer unit (1) is the fundamental means that transforms the electrical
signal to the sound waves produced by movements of the membrane of the transducer
unit. Any standard transducer unit may be applied in the invention.
The characteristics of each loudspeaker transducer unit are determined by measurement
and/or from specifications delivered by the supplier of the unit.
[0042] In the preferred embodiment an audio reproduction system comprising active sound
transducers including an amplifier (2) is provided for each transducer unit (1). This
type of amplifier is e.g. the technology ICEpower from Bang & Olufsen DK.
[0043] In a high quality audio reproduction system a dedicated filter means, an equalizer,
(3) is provided per amplifier (2). The means (3) provides a frequency dependent amplification
to control the overall gain, which may be regulated up or down as required. Means
for down regulation may be as simple as adjustment of a resistive means serial connected
to the loudspeaker module.
[0044] To control the sound distribution into individual zones of sound fields the sound
delay among channels must be controlled. In a preferred embodiment the delay (4) is
controlled individually per sound channel.
[0045] Figure 2 displays the example of an audio reproduction system comprising loudspeaker
modules configured in a multi channel concept e.g. a 5.1 surround sound system.
In fact any number of channels (22) may be handled; having a corresponding table complex
related according to the actual functional system requirements.
[0046] The audio reproduction system may be an audio amplifier (20), including a digital
signal processor, for controlling and driving the loudspeaker channels (22), and to
provide a signal (21) that's amplified and filtered and delayed accordingly.
[0047] Input from sensor means (23) determines the mode and functional operation of the
control system and may be of a different nature e.g. but not limited to: simple switch,
accelerometer, infrared detection, thermal sensing etc.
In the preferred embodiment the sensors primarily detects the position of a user in
a room/space, the position to be related to the sound field that's relevant for the
one or more users /listeners.
E.g. in a vehicle the detection of a user's position is where the individual user
is seated. The detection in this system may be via a simple switch in every seat,
or via switches related to the security belts.
[0048] Additional control signals may be received as user commands (24), e.g. a command
to 'enable automatic sound control' and a context related information (25), e.g. information
about the time of the day and/or the type of music actual in play. The additional
control signal information to be used as input into the digital signal processor to
control mode and functional operation of the sound system.
[0049] In a preferred embodiment the reconfigure means is imbedded into the controller of
the audio sound system. Thus the audio sound system is the master having the digital
signal processor means (20) that initiates, controls and applies the reconfiguring
process. Alternative table definitions may be loaded into the digital signal processor
(20) from external means e.g. a laptop/PC (26).
[0050] The invention may be applied in relation to automatically adjusting an audio sound
system to a maximum level of quality taking into account the position of individual
listeners in dedicated zone of sound fields.
[0051] The invention includes sound channel configurations to be applied in surround sound
systems and traditional stereophonic system, and to be applied in any domain like
a home, in a vehicle, in an airplane in a boat, in an office or in any other public
domain and alike.
1. A method for dynamic and automatic reconfiguring an audio reproduction system comprising
two or more sound channels where the reconfiguring has the steps:
• determine the physical position of one or more listeners,
• apply the physical position as information to select a set of predefined or calculated
sound parameters, the set of parameters to include settings for equalization, gain
and delay per sound channel and/or per loudspeaker transducer,
• optionally apply other context related information to select a set of predefined
sound parameters,
• optionally apply other user commanded information to select a set of predefined
sound parameters, and
• provide the set of parameters per sound channel and/or per loudspeaker transducer
accordingly,
and where the reconfiguring method is
characterized by a constraint solver, which constraint solver finds one or more legal combinations
among defined legal combinations predefined in a constraint table.
2. A method according to claim 1, where the reconfiguring process validates the position
of the one or more users, and/or functional premises and/or context related premises
and/or content related premises as part of the reconfiguring of the one or more sound
channels that constitutes the configured loudspeaker system, and where the validation
prioritizes the position of the one or more listeners.
3. A method according to any preceding claim where the reconfiguring process provides
the settings of the sound parameters; gain, equalization and delay for one sound channel,
to be applied in one sound field zone related to the physical position of a first
group of people including one or more listeners.
4. A method according to claim 3 where the reconfiguring process provides the settings
of the sound parameters; gain, equalization and delay for one sound channel, to be
applied in one sound field zone related to the physical position of one or more other
groups of people including one or more listeners.
5. A method according to claim 1, where a listener's position is detected via sensor
means like switches or infrared detectors or strain gauges or temperature sensitive
detectors.
6. A method according to any preceding claim, where the reconfiguring means is embedded
into an audio reproduction system.
7. A method according to claim 1,
characterised in that the constraint table comprises digital data representing the constraints of the
1) Passenger(s) position(s), and related acoustical adjustment, attributes and corresponding
variable values, and/or
2) Passenger(s) position(s)" loud speaker channel number, parameter settings (EQ,
delay, gain) and/or
3) Functional settings, such as movie,audio only, loudspeaker channel number, parameter
settings (EQ, delay, gain).
8. A method according to claim 1, characterised in that the constraint table is configured as a multi dimensional state space, defining relations
among variables in either disjunctive form or conjunctive form.
9. A audio system comprising means for carrying out the method according to any of claims
1 to 8, characterised in that the automatic reconfiguring is applied on an audio reproduction system comprising
two or more sound channels, each channel being active and with individual means for
equalization and amplification, the system to constitute an audio reproduction equipment
in a room, in a vehicle, in an airplane, in a boat, in a PA system and alike.